A 700 V BCD technology platform is presented for high voltage applications. An important feature is that all the devices have been realized by using a fully implanted technology in a p-type single crystal without an e...A 700 V BCD technology platform is presented for high voltage applications. An important feature is that all the devices have been realized by using a fully implanted technology in a p-type single crystal without an epitaxial or a buried layer. An economical manufacturing process, requiring only 10 masking steps, yields a broad range of MOS and bipolar components integrated on a common substrate, including 700 V nLDMOS, 200 V nLDMOS, 80 V nLDMOS, 60 V nLDMOS, 40 V nLDMOS, 700 V nJFET, and low voltage devices. A robust double RESURF nLDMOS with a breakdown voltage of 800 V and specific on-resistance of 206.2 mf2.cm2 is successfully optimized and realized. The results of this technology are low fabrication cost, simple process and small chip area for PIC products.展开更多
A new semi-insulation structure in which one isolated island is connected to the substrate was pro- posed. Based on this semi-insulation structure, an advanced BCD technology which can integrate a vertical de- vice wi...A new semi-insulation structure in which one isolated island is connected to the substrate was pro- posed. Based on this semi-insulation structure, an advanced BCD technology which can integrate a vertical de- vice without extra internal interconnection structure was presented. The manufacturing of the new semi-insulation structure employed multi-epitaxy and selectively multi-doping. Isolated islands are insulated with the substrate by reverse-biased PN junctions. Adjacent isolated islands are insulated by isolation wall or deep dielectric trenches. The proposed semi-insulation structure and devices fixed in it were simulated through two-dimensional numerical computer simulators. Based on the new BCD technology, a smart power integrated circuit was designed and fabri- cated. The simulated and tested results of Vertical DMOS, MOSFETs, BJTs, resistors and diodes indicated that the proposed semi-insulation structure is reasonable and the advanced BCD technology is validated.展开更多
基金Project supported by the Young Scientists Fund of the National Natural Science Foundation of China(No.60906038)
文摘A 700 V BCD technology platform is presented for high voltage applications. An important feature is that all the devices have been realized by using a fully implanted technology in a p-type single crystal without an epitaxial or a buried layer. An economical manufacturing process, requiring only 10 masking steps, yields a broad range of MOS and bipolar components integrated on a common substrate, including 700 V nLDMOS, 200 V nLDMOS, 80 V nLDMOS, 60 V nLDMOS, 40 V nLDMOS, 700 V nJFET, and low voltage devices. A robust double RESURF nLDMOS with a breakdown voltage of 800 V and specific on-resistance of 206.2 mf2.cm2 is successfully optimized and realized. The results of this technology are low fabrication cost, simple process and small chip area for PIC products.
基金Project supported by the National Natural Science Foundation of China(No.61464002)the Science and Technology Fund of Guizhou Province(No.Qian Ke He J Zi[2014]2066)the Dr.Fund of Guizhou University(No.Gui Da Ren Ji He Zi(2013)20Hao)
文摘A new semi-insulation structure in which one isolated island is connected to the substrate was pro- posed. Based on this semi-insulation structure, an advanced BCD technology which can integrate a vertical de- vice without extra internal interconnection structure was presented. The manufacturing of the new semi-insulation structure employed multi-epitaxy and selectively multi-doping. Isolated islands are insulated with the substrate by reverse-biased PN junctions. Adjacent isolated islands are insulated by isolation wall or deep dielectric trenches. The proposed semi-insulation structure and devices fixed in it were simulated through two-dimensional numerical computer simulators. Based on the new BCD technology, a smart power integrated circuit was designed and fabri- cated. The simulated and tested results of Vertical DMOS, MOSFETs, BJTs, resistors and diodes indicated that the proposed semi-insulation structure is reasonable and the advanced BCD technology is validated.
